A Reverse Genetic Approach for Studying sRNAs in Chlamydia trachomatis

Small RNAs (sRNAs) are a class of regulatory RNAs that play important roles in bacterial physiology and pathogenesis. In the intracellular bacterium Chlamydia, however, sRNAs are poorly understood, and functional studies have been limited to a heterologous system. sRNAs are noncoding transcripts that play critical roles in posttranscriptional regulation in prokaryotes. In the intracellular bacterium Chlamydia, sRNAs have been identified, but functional studies have been limited to an E. coli heterologous system. We have developed an inducible sRNA overexpression system in Chlamydia trachomatis and used it to screen putative sRNAs for effects on the Chlamydia developmental cycle, which involves conversion between replicating (RB) and infectious (EB) chlamydial forms. Overexpression of 4 of 13 C. trachomatis sRNAs decreased production of infectious EBs. We performed detailed characterization of CtrR3 and CtrR7, the two sRNAs that caused the largest progeny defects in our screen. By quantifying chlamydial number and infectious progeny, and by visualizing chlamydial forms using electron microscopy, we showed that overexpression of CtrR3 prevented RB-to-EB conversion, whereas CtrR7 overexpression blocked bacterial replication. We also describe a workflow that allowed us to identify the mRNA targets of CtrR3 in Chlamydia. We first used MS2 aptamer affinity purification coupled with RNA sequencing as an unbiased approach to isolate interacting mRNAs. We then prioritized candidates based on sequence complementarity to the CtrR3 target recognition sequence, which we had identified with bioinformatic and mutational analyses. Finally, we tested putative targets with translational fusion assays in E. coli and C. trachomatis. Using this integrated approach, we provide experimental evidence that YtgB and CTL0389 are mRNA targets of CtrR3 in Chlamydia. These findings demonstrate how our C. trachomatis sRNA overexpression system can be used to investigate the functions and mRNA targets of chlamydial sRNAs. IMPORTANCE Small RNAs (sRNAs) are a class of regulatory RNAs that play important roles in bacterial physiology and pathogenesis. In the intracellular bacterium Chlamydia, however, sRNAs are poorly understood, and functional studies have been limited to a heterologous system. In this study, we developed a genetic system for studying sRNAs in Chlamydia trachomatis and used it to identify four chlamydial sRNAs whose overexpression decreased the production of infectious bacteria. We also successfully utilized this genetic system to determine the target recognition sequence and mRNA targets of an uncharacterized, chlamydial sRNA named CtrR3. Overall, this work offers a generalizable approach for investigating the role of chlamydial sRNAs in their native organism.